teledynelecroy.com/static-dynamic-complete

Dynamic power analysis - capture more information

Complete test coverage - control system, power section, motor

Static power analysis - like a dedicated power analyzer

STATIC DYNAMICCOMPLETE

350 MHz - 2 GHz Motor Drive Analyzer

Complete

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Dynamic

Static

More Test Coverage

• Built on a high-bandwidth 12-bit oscilloscope platform

• Easily correlate control system, inverter subsection, and motor behaviors to a single switching cycle

• One instrument, one solution for motor drive engineers

Like a Power Analyzer Instrument

• Numerics table mean value display

• Accuracy within 1% of a dedicated power analyzer

• Harmonic order calculations and vector displays

VRMS = 281.74 V IRMS = 115.86 mAPower = 27.065 W

Controls

Inverter Subsection Motor

Capture More Information

• Long records for analysis (seconds to minutes of capture time)

• Per-cycle Waveforms reveal detailed dynamic behaviors

• Zoom+Gate easily localizes dynamic behaviors

What Motor Drive Engineers Need

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3-Phase Electrical and Mechanical Power and Control Analysis

Motor Drive Analyzer

• Acquire any signal for short or

long durations - everything on one

display

• Perform 3-phase electrical and

mechanical power calculations at

your bench

• Correlate complex power, control,

and motor behaviors

S1

S3

R1

R3

S2 S4

ø

Φ1 Φ2

Φ3

N

Φ1 Φ2

Φ3

N

NS

S

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Static power analysisThe mean-value Numerics table displays voltage, current, power, speed, torque, etc. values for short (or long) time periods during constant load, speed and torque operating conditions - just like what a dedicated power analyzer instrument provides.

Dynamic power analysisCapture thousands of power cycles over long time periods. Per-cycle Waveform displays help you understand dynamic behaviors. Use Zoom+Gate to isolate and correlate power behaviors to control system operation during dynamic load, speed and torque operating conditions.

Complete test coverageAcquire and display analog, digital, sensor and serial data signals from both power and embedded control systems. Correlate power system behaviors to control system activity during time periods as short as a single device switching cycle.

Motor Interface

(Torque, Speed, Angle)3-phase Power Analysis

(Inputs, Resolution)

Complete Acquisition Capabilities(BW, SR, Resolution, Memory;

Analog, Digital, Sensor, Serial Data)

STATIC

DYNAMIC

COMPLETE

WHAT MOTOR DRIVE ENGINEERS NEED

Motor drive engineers need to understand every part of drive system operation. They need to view control, sensor, device and power waveforms, they need to understand dynamic events, and they need flexibility to debug anything.

The Motor Drive Analyzer does it all.

– Up to 2 GHz, 10 GS/s, 5 Gpts with 12-bit resolution – Dynamic power analysis, from startup to overload – Per-cycle time-correlated power Waveforms – Comprehensive motor interface (Torque, Speed,

Angle, Power) – Unique Zoom+Gate mode – Two- and three-wattmeter methods supported – Harmonics calculations, displays and filtering

(optional) – Vector displays (optional) – Up to 6000 Vrms isolation with HVD Series

differential probes – Easily interface many different current measurement

devices

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Motor Drive Analyzer complete test coverageThe Motor Drive Analyzer acquires any analog, digital, sensor, serial data or power signal and performs three-phase electri-cal and mechanical power calculations. It has the flexibility to acquire and measure almost anything.

In contrast, single-function power analyzers only provide simple "black-box" numerical analysis during static operating conditions. Most oscilloscopes are good for basic embedded control debug and validation, but they lack enough inputs for complex drive system and control system analysis, and don’t have enough resolution to precisely measure power and ef-ficiency values.

Teledyne LeCroy Motor Drive Analyzer Test Coverage

Typical Power Analyzer Test Coverage Typical Oscilloscope Test Coverage

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MORE CAPABILITY THAN YOU EVER IMAGINED

1. Zoom+Gate Mode Zoom in to gate the results to a region in a long acquisition. Updates instantly. See page 9.

2. Comprehensive Mechanical Interface Supports nearly every sensor type. Derive speed/torque without sensors. See page 10.

3. Numerics Table See the mean values for the entire acquisition in a user-defined table. See page 8.

4. Vertical Zooming Capture details through independent vertical zoom of waveforms.

5. Precise Harmonic Filtering Limit results to Fundamental only, Fundamental + N, or Range. (some optional).

6. Flexible, Intuitive, Graphical Setup

Gain confidence using a graphic interface with re-calculation upon setup changes.

The Motor Drive Analyzer tells you more about your motor, drive and controls than anything else. It's what you wanted and didn't know to ask for.

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MORE CAPABILITY THAN YOU EVER IMAGINED

7. Q-Scape Multi-tabbed Displays Organize waveforms onto separate tabs, then view them all at once or one tab at a time.

8. Multi-stage Efficiency Analysis

Calculate stage-stage and overall (cumulative) efficiency.

9. Connect Two MDAs (for 16 Channels) Use OscilloSYNC™ to quickly connect two MDAs and create one 16-channel MDA.

10. Per-cycle Waveform Displays Touch the Numerics table to create a plot of the measurement versus time.

Cursors Place a cursor on any waveform and get an instantaneous reading of drive behavior.

Statistics Table Displays complete statistical data for any Numerics table measurement.

Vector Displays View the 3-phase system through an intuitive, six vector display (optional). See page 8.

Harmonic Calculations Display harmonic values in a table, with spectral waveforms and THD per-cycle Waveforms (optional). See page 8.

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Numerics Measurement Table• User-configurable - up to 120 values in 10

(source) rows and 12 (measurement) columns.

• Mean value summaries of per-cycle calculations.

• Select for Full Spectrum or Fundamental Only calculations (other selections optional).

Vector Displays (Optional)• Display of AC Input and Drive Output vector

system.

• Two simultaneous displays.

• Display vectors and numeric data as arithmetic mean or vector average.

• Harmonically filter to the fundamental, a range of harmonics, or a single harmonic and display vectors.

• Use with Zoom+Gate to show vector changes during dynamic or long acquisitions.

Harmonics Calculations (Optional)• Rigorous software DFT method precisely

separates desired frequency content.

• Calculates AC line-side (fixed-frequency) or inverter/drive output (variable-frequency).

• Adds "Fundamental + N" and "Range" selections to Harmonic Filter settings.

• THD numeric calculation and per-cycle Waveforms.

• Harmonic order table and spectral displays (up to nine simultaneous).

STATIC POWER ANALYSIS

Quickly select the measurement sources and types to display in a mean-value Numerics table.

Display two simultaneous vector views of three-phase power systems and correlate them to acquired voltage, current and other waveforms and calculated per-cycle Waveforms.

Capture and calculate harmonics during very short or long acquisitions and show results as Spectral Waveform displays, total THD values or per-cycle THD Waveforms.

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Per-cycle Waveforms• Displays measured behaviors as value vs. time

Waveforms, with one value per measurement cycle.

• Simple setup – touch a Numerics table value and a per-cycle Waveform is displayed.

• Time-correlated to other acquired signals - measured anomalies or unexpected changes are quickly revealed.

• Display complete statistics of all values.

Dynamic Drive Response• Capable of thousands of dynamic power cycle

measurements.

• Minutes of acquisition time (e.g., 2.5 GS of memory at 10 MS/s sample rate = over 4 minutes).

• Complete understanding of drive system behaviors – startup, load application/release, etc.

• Correlate drive response problems to control system instructions or power section failures.

Zoom+Gate Mode• One touch creates Zoom waveforms and

“gates” the Numeric measurements to the zoomed area.

• Per-cycle Waveforms are time-correlated to Zooms for easy problem investigation.

• Change zoom location and all Numerics and Waveforms instantly update.

• Gain fast and deep insight into dynamic drive and control system behaviors.

STATIC POWER ANALYSIS DYNAMIC POWER ANALYSIS

Capture voltage, current and other signals and calculate dynamic responses using per-cycle Waveforms to better understand complex drive, control and motor behaviors.

This simplified example shows THD for voltage and current (bottom magenta and orange Waveforms) plotted over time with one THD value per power cycle.

Take very long acquisitions, calculate values for the complete data set, then Zoom+Gate to get a Waveform and Numerics view of just the zoomed area.

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COMPREHENSIVE MECHANICAL INTERFACE

Unrivaled Speed and Torque Interface• Nine speed, four angle and five torque

calculations or sensors supported.

• Calculate mechanical power at your bench without external sensors connected.

• Infer torque from phase current measurement and torque constant.

• Infer speed from stator frequency.

• Angle Tracking Observer filter capability to emulate control system operation.

• Display calculated speed, torque and angle values as per-cycle Waveforms.

Digital Speed/Torque Sensor Support• Quadrature encoder, BLDC Hall sensor and

Pulse Tachometer support.

• Use digital inputs to capture digital sensor signals, preserving analog channels for other use.

• Extract speed and torque information from serial data signals (optional with serial data TDME packages).

Complex Speed Sensor Support• SinCos, Resolver and KMZ60 sensor support.

• Calculate instantaneous motor shaft angle values.

• Correct motor shaft angle to rotor magnetic field angle.

• Apply Angle Tracking Observer filter to better correlate to control system operation.

14 different methods to calculate speed, angle and torque - most supported only by the Motor Drive Analyzer.

Speed data is extracted from digital CAN-encoded serial data and plotted as an analog speed per-cycle Waveform, as if the signal was directly probed.

Speed and angle are calculated from the analog sine, cosine and excitation frequency signals of a resolver, with user-defined angle tracking observer applied.

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COMPREHENSIVE MECHANICAL INTERFACE

Calculate Power During Very Short Durations • Use short duration periods (e.g., device

switching cycles, QEI pulse periods) for power calculations.

• Easily validate instantaneous drive system response time to control system changes (e.g., Vector FOC, DB-DTFC).

• Perform spectral analysis of calculated power, speed, torque, etc. values with high frequency resolution.

Correlate Power Section and Control System Behaviors• View analog, digital or serial data control

signals time-correlated with power section behaviors.

• Compare control system calculated or measured response to actual drive and motor behaviors.

• Calculate and view power section behaviors as per-cycle Waveforms for a more intuitive understanding of flaws and defects.

Complex Measurements and Math• Perform real-time updated measurements

on live acquisitions for faster debug and optimization.

• Calculate and plot losses from measured data and motor constants.

• Perform math on calculated numeric values using additional constants to derive additional results.

• Derive winding balance for complex systems.

Power is measured and shown as per-cycle Waveforms for each instantaneous device switching cycle to determine operation during rotor flux changing commands.

Drive control and feedback signals are compared to drive output voltage and current and calculated power Waveforms to understand whether motor reversal is performing correctly.

Measured losses are compared to drive control system estimated losses and further calculations are made to separate measured losses into core (iron) and load (copper) losses.

COMPLETE TEST CAPABILITY

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Setup CapabilityMeasurement Locations AC Input, DC Bus (Link), Drive Output, Mechanical OutputWiring Configurations AC Input: 1-phase / 2-wire (1V1A); 1-phase / 3-wire (2V/2A); 3-phase / 3-wire (2V2A); 3-phase / 3-wire (3V3A);

3-phase / 4-wire (3V3A); NoneDC Bus: 1-phase / 2-wire (1V1A); NoneDrive Output: 1-phase / Half-Bridge (1V1A); 1-phase / Full-Bridge (1V1A); 3-phase / 3-wire (2V2A); 3-phase / 3-wire (3V3A); 3-phase / 4-wire (3V3A); None

Harmonic Filter Select either Full Spectrum or Fundamental only. With WR8kHD-THREEPHASEHARMONICS option, also select Fundamental + N (harmonics) or Range (maximum 50th harmonic in both cases).

Sync (per-cycle) Measurement Signal Independently settable for AC Input, DC Bus, Drive Output and Mechanical Output. Low pass filter (LPF) cutoff settable from 20 Hz to 1 MHz. Hysteresis settable from 0-100% full amplitude.Source can be any input analog channel, memory trace or math function.

Voltage Measurement Method Line-Line or Line-Neutral (with L-L to L-N conversion supported)Calculation Waveform Sources Any input channel or stored memory trace

Numerics Measurement Table Selections (calculated per cycle, mean value displayed)Voltage RMS voltage, AC Voltage, DC Voltage, Peak Positive Voltage, Peak Negative Voltage, Peak-Peak Voltage,

Voltage Crest Factor, Voltage Total Harmonic Distortion (THD) (with the WR8kHD-THREEPHASEHARMONICS option)Current RMS Current, AC Current, DC Current, Peak Positive Current, Peak Negative Current, Peak-Peak Current,

Current Crest Factor, Current Total Harmonic Distortion (THD) (with the WR8kHD-THREEPHASEHARMONICS option)Power, Efficiency and Other Real, Apparent and Reactive Power, Peak Positive Real Power, Peak Negative Real Power, Power Total Harmonic

Distortion (THD) (with the WR8kHD-THREEPHASEHARMONICS option), Power Factor, Phase Angle, Incremental Ef-ficiency, Total Efficiency, Frequency

Motor Mechanical Torque, Speed1, Speed2, Angle1, Angle2 (as defined by sensor or adjusted with Offset Angle setting), Mechanical Power, AC induction motor Slip

Source Selections Voltage: Va, Vb, Vc, Va-b, Vb-c, Vc-a, Vr, Vs, Vt, Vr-s, Vs-t, Vt-r, Ia, Ib, Ic, Ir, Is, It, Vbus, Ibus, Mechanical. Up to 10 rows (sources) and 12 columns (measurements) may be displayed in the table at any time. Source selections dependent on Wiring Configuration selections and Line-Line to Line-Neutral selections.

Per-cycle Waveforms and StatisticsWaveforms A time-correlated waveform of any per-cycle Numerics Table measurement parameter may be created and dis-

played anywhere on the grid. Up to 12 detailed per-cycle Waveforms may be displayed at one time, with up to 40 waveforms total (channels, memories, zooms, math and per-cycle Waveforms) displayed at any one time.

Statistics Detailed statistics on up to 12 per-cycle Numerics Table measurement parameters may be displayed at one time.

Zoom+Gate ModeOperation Zoom+Gate creates zooms of all voltage, current and mechanical signals (analog or digital) and simultaneously

gates the Numerics and Statistics tables to the zoomed area. Displayed per-cycle Waveforms are simultaneously time-correlated to the zoomed area. Scroll through the full acquisition using zoom position and ratio (size) controls and view instantaneous updates of table values.

Motor Mechanical InterfaceSpeed + Direction Analog Tachometer (0-x Vdc = Speed). Source is analog input.

Digital Tachometer (x pulse/revolution = speed). Source may be digital or analog input.Applied Voltage. Source is one analog input. Controlled Area Network (CAN) Serial Data. Source is CAN message with embedded digital data. CANbus TD or TDME option must be ordered separately.Hall Sensors (three digital inputs). Source may be digital or analog input. Angle Tracking Observer filter may be ap-plied to this selection.

Speed + Direction + Angle Resolver. Source is three analog inputs.SinCos. Source is two analog inputs. KMZ60. Source is two analog inputs.Quadrature Encoder Interface (QEI) (A, B and optional Z input). Source may be digital or analog input.Angle Tracking Observer filter may be applied to all selections.

Torque Analog 0-Vdc = Torque. Source is one analog input. Analog mV/V = Torque. Source is one analog input. Analog Frequency Modulated = Torque. Source is one analog input. Motor Constant K * Current = Torque. Source is MDA calculated per-cycle current value.Controlled Area Network (CAN) Serial Data = Torque. Source is CAN message with embedded digital data. CANbus TDME option must be ordered separately.

Typical AccuracyVoltage, Current and Power Accuracy is typically within 1%, depending on voltage and current measurement device.

Recommended voltage probe (line-line voltage sensing): Teledyne LeCroy HVD Series High Voltage Differential Probe (1 kV, 2 kV and 6 kV isolated models available).Recommended voltage probe (line-neutral or line-reference voltage sensing): Teledyne LeCroy HVD Series HV Differ-ential Probe for voltages >50Vrms, Teledyne LeCroy passive probe (Qty. 4 included) for voltages ≤50 VrmsRecommended current probes: Teledyne LeCroy CP Series Current Probes.Other voltage and current measurement devices may be interfaced to the oscilloscope and analysis software using built-in rescaling and unit selection capabilities. The CA10 current sensor adapter provides programmability for rescaling and unit selection.

CAPABILITIES AND PERFORMANCE

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Harmonics Calculation Option (part number WR8KHD-THREEPHASEHARMONICS)Fundamental Frequency Detection Fixed Frequency detection mode (for Line AC inputs only) or Varying Frequency detection mode (for Line AC inputs

or Inverter PWM outputs).Number of Harmonics Calculated Up to 100 (Fixed Frequency) or up to 50 (Varying Frequency)Harmonics Table and Spectral Wave-form Display

Values by Harmonic Order for up to nine quantities (Voltage, Current and Power) for any or all of three phases (lim-ited to Voltage and Current in Fixed Frequency mode).

Units/Limits Selection Amps/Volts/Watts, % or dB. For Fixed Frequency, pre-defined limits file or custom limits file.

Vector Display Option (expected availability early 2020)Number of Vector Displays Two: one for AC Input and one for Drive OutputVector Display Selection Arithmetic or Vector SumDisplay Information Volts, Amps and Phase Angle for each vector

Other Available Options & AccessoriesAcquisition Memory Options available for up to 1.25 Gpts/Ch on all 8 channels (up to 5 Gpts/Ch interleaved)OscilloSYNC™ Technology (16ch) Combine two MDAs into a single, 16-channel acquisition system. OscilloSYNC option enables the display and con-

trol of 16 time-synchronized channels on one MDA after making a simple BNC and Ethernet connection between two instruments.

Mixed Signal Oscilloscope WR8KHD-MSO: 16 digital input capability. Up to 500 MHz digital clock rate, flexible analog and digital cross-pattern trigger and use of digital logic lines for mechanical speed sensing and serial data clock, data and chip select prob-ing. Optional serial data trigger and decode software available.

Serial Triggers, Decode, Measure/Graph and Eye Diagram

Optionally available: I2C, SPI, UART-RS232, CAN, CAN FD, LIN, FlexRay, ARINC429, Audio (I2S), DPHY, DigRF3G, DigRFv4, DPHY, ENET, I3C, Manchester, MDIO, MIL1553, NRZ, SENT, SpaceWire, SPMI, USB2, USB2-HSIC, and 8b/10b. Symbolic triggering and decoding is available for CAN and CAN FD. TDME options provide automatic serial message timing measurements, serial (digital) data extraction and conver-sion (D-A capability), and eye diagrams.

Probes and Accessories A comprehensive list of voltage and current probes is supported on the Motor Drive Analyzer. Additionally, rack-mounts, carts, cases, additional removable drives, GPIB interface and CPU RAM upgrades are also available.

Other Application Software Packages Power (Semiconductor Device and Switch-mode Power Supply) Analysis, Digital Filtering, Clock+Timing Jitter, Serial Data Jitter, Serial Data Compliance, Spectrum Analysis, EMC/EMI Measurements, and Developer’s Toolkit.

Teledyne LeCroy offers 4- and 8-channel High Definition Oscilloscopes that support some of the same capabilities as the Motor Drive Analyzer when purchased with the THREEPHASEPOWER software option.

THREEPHASEPOWER on HDO6000A & WavePro HD

THREEPHASEPOWER on WaveRunner 8000HD

MDA 8000HD Motor Drive Analyzer

Analog Input Channels 4 8 (16 with OscilloSYNC) 8 (16 with OscilloSYNC)

Digital Input Channels 16 (on -MS models) 16 (with MSO option) 16 (with MSO option)

Resolution 12 bits 12 bits 12 bits

Bandwidth 350 MHz - 8 GHz 350 MHz - 2 GHz 350 MHz - 2 GHz

1-Phase Power Analysis

3-Phase Power Analysis (2-wattmeter method only)

Mechanical Power Analysis X X

X-Y Traces X X

Harmonics Calc Option

Vector Display Option

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ORDERING INFORMATIONProduct Description Product Code

MDA 8000HD Motor Drive Analyzers350 MHz, 8 Ch, 12 Bits, 10 GS/s, 50 Mpts/Ch Motor Drive Analyzer with 15.6” 1920x1080 capacitive touch screen and UHD (4k) extended desktop. Includes 3-phase Electrical and Mechanical Power Analysis Software.

MDA 8038HD

500 MHz, 8 Ch, 12 Bits, 10 GS/s, 50 Mpts/Ch Motor Drive Analyzer with 15.6” 1920x1080 capacitive touch screen and UHD (4k) extended desktop. Includes 3-phase Electrical and Mechanical Power Analysis Software.

MDA 8058HD

1 GHz, 8 Ch, 12 Bits, 10 GS/s, 50 Mpts/Ch Motor Drive Analyzer with 15.6” 1920x1080 capacitive touch screen and UHD (4k) extended desktop.Includes 3-phase Electrical and Mechanical Power Analysis Software.

MDA 8108HD

2 GHz, 8 Ch, 12 Bits, 10 GS/s, 50 Mpts/Ch Motor Drive Analyzer with 15.6” 1920x1080 capacitive touch screen and UHD (4k) extended desktop.Includes 3-phase Electrical and Mechanical Power Analysis Software.

MDA 8208HD

Included with Standard Configurations÷10, 500 MHz Passive Probe (Qty. 4), Protective Cover, Getting Started Guide, MDA Software Instruction Manual, Microsoft Windows® 10, Commercial NIST Traceable Calibration with Certificate, Power Cable for the Destination Country, 3-year Warranty

Motor Drive Analyzer Power Analysis Options3-phase Harmonics Calculation Option

WR8KHD-THREEPHASEHARMONICS

Vector Analysis Option (Available early 2020)

Memory Upgrade Options500 Mpt/2Ch (250 Mpt/4Ch, 125 Mpt/8Ch) WR8KHD-500MPT1 Gpt/2Ch (500 Mpt/4Ch, 250 Mpt/8Ch) WR8KHD-1000MPT2 Gpt/2Ch (1 Gpt/4Ch, 500 Mpt/8Ch) WR8KHD-2000MPT5 Gpt/2Ch (2.5 Gpt/4Ch, 1.25 Gpt/8Ch) WR8KHD-5000MPT

CPU, Computer and Other Hardware OptionsAdditional Standard Solid State Drive WR8KHD-RSSD-0216 GB to 32 GB CPU RAM Upgrade* WR8KHD-UPG-32GBRAM

* 32 GB RAM upgrade is included with all memory upgrade options.

Oscilloscope Synchronization Options16-Channel OscilloSYNC Software (combine two WaveRunner/MDA 8000HD oscilloscopes)

WR8KHD-16CH-SYNCH

Mixed Signal SolutionsMixed Signal Option (incl. 16-channel digital leadset, 22 extra large gripper probes, 20 ground extenders, 5 flexible ground leads and license)

WR8KHD-MSO

MSO License (without accessories) WR8KHD-MSO-LICENSE

Product Description Product Code

Serial Trigger and Decode OptionsMIL-STD-1553 Trigger & Decode WR8KHD-1553 TDMIL-STD-1553 Trigger, Decode, Measure/Graph & Eye Diagram

WR8KHD-1553 TDME

8b10b Decode WR8KHD-8B10B DARINC 429 Symbolic Decode WR8KHD-ARINC429BUS D SYMBOLICARINC 429 Symbolic Decode, Measure/Graph &Eye Diagram

WR8KHD-ARINC429BUS DME SYMBOLIC

AudioBus Trigger & Decode WR8KHD-AUDIOBUS TDAudioBus Trigger, Decode & Graph WR8KHD-AUDIOBUS TDGCAN FD Trigger & Decode WR8KHD-CAN FDBUS TDCAN FD Trigger, Decode, Measure/Graph & Eye Diagram

WR8KHD-CAN FDBUS TDME

CAN FD Symbolic Trigger, Decode, Measure/Graph, & Eye Diagram

WR8KHD-CAN FDBUS TDME SYMBOLIC

CAN Trigger & Decode WR8KHD-CANBUS TDCAN Trigger, Decode, Measure/Graph & Eye Diagram

WR8KHD-CANBUS TDME

CAN Symbolic Trigger, Decode, Measure/Graph & Eye Diagram

WR8KHD-CANBUS TDME SYMBOLIC

DigRF 3G Decode WR8KHD-DIGRF3GBUS DDigRF V4 Decode WR8KHD-DIGRFV4BUS DMIPI D-PHY CSI-2 & DSI Decode WR8KHD-DPHYBUS DEmbedded Bundle: I2C, SPI, UART-RS232 Trigger & Decode

WR8KHD-EMB TD

Embedded Bundle: I2C, SPI, UART-RS232 Trigger, Decode, Measure/Graph, & Eye Diagram

WR8KHD-EMB TDME

ENET Decode WR8KHD-ENETBUS DFlexRay Trigger & Decode WR8KHD-FLEXRAYBUS TDFlexRay Trigger, Decode, Measure/Graph & Physical Layer Tests

WR8KHD-FLEXRAYBUS TDMP

I2C Trigger & Decode WR8KHD-I2CBUS TDI2C Trigger, Decode, Measure/Graph & Eye Diagram

WR8KHD-I2CBUS TDME

I3C Trigger & Decode WR8KHD-I3CBUS TDI3C Trigger, Decode, Measure/Graph & Eye Diagram

WR8KHD-I3CBUS TDME

LIN Trigger & Decode WR8KHD-LINBUS TDLIN Trigger, Decode, Measure/Graph & Eye Diagram

WR8KHD-LINBUS TDME

Manchester Decode WR8KHD-MANCHESTERBUS DMDIO Decode WR8KHD-MDIOBUS DNRZ Decode WR8KHD-NRZBUS DSENT Trigger & Decode WR8KHD-SENTBUS TDSENT Trigger, Decode, Measure/Graph & Eye Diagram

WR8KHD-SENTBUS TDME

SpaceWire Decode WR8KHD-SPACEWIREBUS DSPI Trigger & Decode WR8KHD-SPIBUS TDSPI Trigger, Decode, Measure/Graph & Eye Diagram

WR8KHD-SPIBUS TDME

SPMI Trigger & Decode WR8KHD-SPMIBUS TDSPMI Trigger, Decode, Measure/Graph & Eye Diagram

WR8KHD-SPMIBUS TDME

UART-RS232 Trigger & Decode WR8KHD-UART-RS232BUS TDUART-RS232 Trigger, Decode, Measure/Graph & Eye Diagram

WR8KHD-UART-RS232BUS TDME

USB 2.0 Trigger & Decode WR8KHD-USB2BUS TDUSB 2.0 Trigger, Decode, Measure/Graph & Eye Diagram

WR8KHD-USB2BUS TDME

USB 2.0 HSIC Decode WR8vKHD-USB2-HSICBUS D

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ORDERING INFORMATIONProduct Description Product Code

Serial Data Compliance Test OptionsQualiPHY 1000Base-T1 Compliance Software QPHY-1000BASE-T1*

QualiPHY BroadR-Reach Software QPHY-BROADR-REACH*

QualiPHY Ethernet 10/100/1000BT Software QPHY-ENET*

QualiPHY MOST150 Software QPHY-MOST150QualiPHY MOST50 Software QPHY-MOST50QualiPHY USB 2.0 Software QPHY-USB‡

10/100/1000Base-T Ethernet Test Fixture TF-ENET-B**

USB 2.0 Compliance Test Fixture TF-USB-B

* TF-ENET-B required ‡ TF-USB-B required ** Includes ENET-2CAB-SMA018 and ENET-2ADA-BNCSMA

Debug Toolkit Options100Base-T1 and 1000Base-T1 Debug Toolkit

WR8KHD-AUTO-ENET-TOOLKIT

Automotive Ethernet Breakout Test Fixture for 100Base-T1 and 1000Base-T1 Debug Toolkit

TF-AUTO-ENET

Serial Data Analysis OptionsSerial Data Analysis Software (single-lane eye, jitter and noise measurements)

WR8KHD-SDAIII

Eye Doctor II Software (channel & fixture de-embedding/emulation, Tx/Rx equalization)

WR8KHD-EYEDRII

Virtual Probe Software (advanced de-embedding, emulation and virtual probing)

WR8KHD-VIRTUALPROBE

Serial Data Mask Software WR8KHD-SDMCable De-Embedding Software WR8KHD-CBL-DE-EMBED

Power Analysis OptionsPower Analyzer Software WR8KHD-PWRDigital Power Management Analysis WR8KHD-DIG-PWR-MGMT

Jitter Analysis OptionsJitKit Software (clock/clock-data jitter analysis with statistical, spectral and jitter overlay)

WR8KHD-JITKIT

Digital Filtering OptionsDigital Filter Software WR8KHD-DFP2

Other Software OptionsEMC Pulse Parameter WR8KHD-EMCSpectrum Analyzer and Advanced FFT WR8KHD-SPECTRUMVectorLinQ Vector Signal Analysis WR8KHD-VECTORLINQAdvanced Customization WR8KHD-XDEV

Remote Control/Network OptionsExternal USB2 to GPIB Adaptor USB2-GPIB

General Accessories MDA 8000HD Rackmount Kit WR8KHD-RACKMOUNTInstrument Cart (with additional shelf and drawer) OC1024-A

Product Description Product Code

ProbesPower/Voltage Rail Probe with 4 GHz bandwidth, 1.2x attenuation, ±30 V offset, ±800 mV

RP4030

High Voltage Fiber Optic Probe, 60 MHz bandwidth HVFO103500 MHz Passive Probe, 2.5mm, 10:1, 10 MΩ PP021500 MHz Passive Probe, 5mm, 10:1, 10 MΩ PP0251 GHz, 0.9 pF, 1 MΩ High Impedance Active Probe ZS1000Set of 4 ZS1000 Active Probes ZS1000-QUADPAK1.5 GHz, 0.9 pF, 1 MΩ High Impedance Active Probe ZS1500Set of 4 ZS1500 Active Probes ZS1500-QUADPAK200 MHz, 3.5 pF, 1 MΩ Active Differential Probe, ±20 V ZD200500 MHz, 1.0 pF Active Differential Probe, ±8 V ZD5001 GHz, 1.0 pF Active Differential Probe, ±8 V ZD10001.5 GHz, 1.0 pF Active Differential Probe, ±8 V ZD1500500 MHz, Active Differential Probe (÷1, ÷10, ÷100) AP03330 A, 10 MHz Current Probe - AC/DC, 30 Arms, 50 A peak pulse, 3-meter cable

CP030-3M

30 A, 50 MHz Current Probe - AC/DC, 30 Arms, 50 A peak pulse, 1.5-meter cable

CP030

30 A, 50 MHz High Sensitivity Current Probe - AC/DC, 30 Arms, 50 A peak pulse, 1.5-meter cable

CP030A

30 A, 100 MHz Current Probe - AC/DC, 30 Arms, 50 A peak pulse, 1.5-meter cable

CP031

30A, 100 MHz High Sensitivity Current Probe - AC/DC, 30 Arms, 50 A peak pulse, 1.5-meter cable

CP031A

150 A, 10 MHz Current Probe - AC/DC, 150 Arms; 500 A peak pulse, 2-meter cable

CP150

150 A, 5 MHz Current Probe - AC/DC, 150 Arms, 500 A peak pulse, 6-meter cable

CP150-6M

500 A, 2 MHz Current Probe - AC/DC, 500 Arms, 700 A peak pulse, 6-meter cable

CP500

Deskew Calibration Source DCS025Programmable Current Sensor to ProBus Adapter (for third-party current sensors)

CA10

Set of 4 CA10 Programmable Current Sensor to ProBus Adapters (for third-party current sensors)

CA10-QUADPAK

100:1 400 MHz 50 MΩ 1 kV High-Voltage Probe HVP120100:1 400 MHz 50 MΩ 4 kV High-Voltage Probe PPE4KV1000:1 400 MHz 50 MΩ 5 kV High-Voltage Probe PPE5KV1000:1 400 MHz 5 MΩ / 50 MΩ 6 kV High-Voltage Probe PPE6KVTekProbe to ProBus Probe Adapter TPA10Optical-to-Electrical Converter, 500-870 nm ProBus BNC Connector

OE425

Optical-to-Electrical Converter, 950-1630 nm ProBus BNC Connector

OE455

1 kV, 25 MHz High Voltage Differential Probe HVD3102A1 kV, 25 MHz High Voltage Differential Probe (without tip accessories)

HVD3102A-NOACC

1 kV, 120 MHz High Voltage Differential Probe HVD3106A1 kV, 120 MHz High Voltage Differential Probe (without tip accessories)

HVD3106A-NOACC

1 kV, 80 MHz High Voltage Differential Probe - 6-meter Cable and Auto Zero Disconnect

HVD3106A-6M

2 kV, 120 MHz High Voltage Differential Probe HVD3206A2 kV, 80 MHz High Voltage Differential Probe - 6-meter Cable and Auto Zero Disconnect

HVD3206A-6M

6 kV, 100 MHz High Voltage Differential Probe HVD3605A700 V, 25 MHz High-Voltage Differential Probe (÷10, ÷100) AP0317.5 GHz Low Capacitance Passive Probe(÷10, 1 kΩ; ÷20, 500 Ω)

PP066

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mda8000hd-ds-25sept19

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1-800-5-LeCroy teledynelecroy.com

Customer ServiceTeledyne LeCroy oscilloscopes and probes are designed, built, and tested to ensure high reliability. In the unlikely event you experience difficulties, our digital oscilloscopes are fully warranted for three years and our probes are warranted for one year.

This warranty includes: • No charge for return shipping • Long-term 7-year support • Upgrade to latest software at no charge